Author
Listed:
- Emmanuelle Szenker-Ravi
(Institute of Medical Biology, A*STAR)
- Umut Altunoglu
(Istanbul Medical Faculty, Istanbul University)
- Marc Leushacke
(Institute of Medical Biology, A*STAR)
- Célia Bosso-Lefèvre
(Institute of Medical Biology, A*STAR
National University of Singapore)
- Muznah Khatoo
(Institute of Medical Biology, A*STAR)
- Hong Tran
(Ghent University)
- Thomas Naert
(Ghent University)
- Rivka Noelanders
(Ghent University)
- Amin Hajamohideen
(Institute of Medical Biology, A*STAR)
- Claire Beneteau
(Service de Génétique Médicale)
- Sergio B. Sousa
(Hospital Pediátrico, Centro Hospitalar e Universitário de Coimbra
Faculty of Medicine, University of Coimbra)
- Birsen Karaman
(Istanbul Medical Faculty, Istanbul University)
- Xenia Latypova
(Service de Génétique Médicale)
- Seher Başaran
(Istanbul Medical Faculty, Istanbul University)
- Esra Börklü Yücel
(Koç University School of Medicine (KUSOM))
- Thong Teck Tan
(Institute of Medical Biology, A*STAR)
- Lena Vlaminck
(Ghent University
Ghent University)
- Shalini S. Nayak
(Manipal University)
- Anju Shukla
(Manipal University)
- Katta Mohan Girisha
(Manipal University)
- Cédric Caignec
(Service de Génétique Médicale
Université Bretagne Loire)
- Natalia Soshnikova
(Institute of Molecular Biology (IMB) gGmbH)
- Zehra Oya Uyguner
(Istanbul Medical Faculty, Istanbul University)
- Kris Vleminckx
(Ghent University
Ghent University)
- Nick Barker
(Institute of Medical Biology, A*STAR
Kanazawa University, Kakuma-machi
The University of Edinburgh)
- Hülya Kayserili
(Istanbul Medical Faculty, Istanbul University
Koç University School of Medicine (KUSOM))
- Bruno Reversade
(Institute of Medical Biology, A*STAR
National University of Singapore
Koç University School of Medicine (KUSOM)
Institute of Molecular and Cellular Biology, A*STAR)
Abstract
The four R-spondin secreted ligands (RSPO1–RSPO4) act via their cognate LGR4, LGR5 and LGR6 receptors to amplify WNT signalling1–3. Here we report an allelic series of recessive RSPO2 mutations in humans that cause tetra-amelia syndrome, which is characterized by lung aplasia and a total absence of the four limbs. Functional studies revealed impaired binding to the LGR4/5/6 receptors and the RNF43 and ZNRF3 transmembrane ligases, and reduced WNT potentiation, which correlated with allele severity. Unexpectedly, however, the triple and ubiquitous knockout of Lgr4, Lgr5 and Lgr6 in mice did not recapitulate the known Rspo2 or Rspo3 loss-of-function phenotypes. Moreover, endogenous depletion or addition of exogenous RSPO2 or RSPO3 in triple-knockout Lgr4/5/6 cells could still affect WNT responsiveness. Instead, we found that the concurrent deletion of rnf43 and znrf3 in Xenopus embryos was sufficient to trigger the outgrowth of supernumerary limbs. Our results establish that RSPO2, without the LGR4/5/6 receptors, serves as a direct antagonistic ligand to RNF43 and ZNRF3, which together constitute a master switch that governs limb specification. These findings have direct implications for regenerative medicine and WNT-associated cancers.
Suggested Citation
Emmanuelle Szenker-Ravi & Umut Altunoglu & Marc Leushacke & Célia Bosso-Lefèvre & Muznah Khatoo & Hong Tran & Thomas Naert & Rivka Noelanders & Amin Hajamohideen & Claire Beneteau & Sergio B. Sousa & , 2018.
"RSPO2 inhibition of RNF43 and ZNRF3 governs limb development independently of LGR4/5/6,"
Nature, Nature, vol. 557(7706), pages 564-569, May.
Handle:
RePEc:nat:nature:v:557:y:2018:i:7706:d:10.1038_s41586-018-0118-y
DOI: 10.1038/s41586-018-0118-y
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